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广元恐龙化石埋藏地是四川盆地中侏罗世重要的恐龙化石点,恐龙化石埋藏于中侏罗统沙溪庙组之中。笔者对该恐龙化石埋藏地沙溪庙组泥质岩的常量元素、微量元素和稀土元素特征进行了研究,并根据泥质岩的地球化学特征讨论了物源区性质、构造背景以及物源区的风化特征。主量元素和稀土元素表明其物源区以长英质岩石为主,构造背景为被动大陆边缘:指示化学风化程度的CIA指数及成分成熟度的ICV指数,表明物源区经历了中等的化学风化作用,反映了中侏罗世恐龙生活在半干旱的古气候环境之中。 相似文献
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珙县恐龙化石埋藏地自流井组泥质岩地球化学特征及其对物源区和古风化作用的指示 总被引:1,自引:0,他引:1
四川珙县恐龙化石埋藏地是四川盆地早侏罗世重要的恐龙化石点,恐龙化石埋藏于下侏罗统自流井组之中。对该恐龙化石埋藏地自流井组泥质岩的常量元素、微量元素和稀土元素特征进行了研究,并根据其地球化学特征讨论了物源区性质、构造背景以及物源区的风化特征。常量元素和稀土元素表明其物源区以长英质岩石为主,构造背景为被动大陆边缘;反映化学风化程度的C IA指数及成分成熟度的ICV指数,表明物源区经历了较强的化学风化作用,反映了早侏罗世恐龙生活在一个温暖潮湿的古气候环境之中。 相似文献
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常用化学风化指标诸如帕克风化指数(WIP)、化学蚀变指数(CIA)、成分变异指数(ICV)、CIX指数和αAlE常被用于评价源区化学风化强度,但利用以上化学风化指标评价化学风化强度时要考虑不同指标的控制因素,否则会导致风化评价结果失真。文章认为以最常用化学风化指标探究源区化学风化过程时,应在了解源区地质信息的情况下,选取合适的的细粒物质或悬浮物作为样品减弱粒度的控制作用,通过酸处理去除杂质,再利用Sc/Th-CIA 判别图反映物源信息,Th/Sc-Zr/Sc判别图进一步判别沉积分异和沉积再旋回的控制作用,进而选取ICV>1的样品排除再旋回作用的干扰,用A-CN-K图或Panahi(2000)提出的公式进行钾交代作用的校正,最终通过CIA计算得出源岩化学风化强度。为确保准确反映源区风化情况,利用SPSS进行CIA受控因子分析,进而构建研究区的特征风化指标。 相似文献
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川西北中生代特提斯沉积物地球化学特征对陆源风化条件的指示意义 总被引:1,自引:0,他引:1
顾雪祥 《矿物岩石地球化学通报》1996,(1)
川西北中生代特提斯沉积物地球化学特征对陆源风化条件的指示意义顾雪祥(成都理工学院.成都610059)关键词特提斯浊积岩,风化条件,元素分配型式,碱金属-碱土金属,化学变异指数地史时期的物源区现今许多已被剥蚀破坏,因而有关这类物源区的母岩性质、同化条件... 相似文献
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利用化学蚀变指数法恢复物源区的风化历史及沉积物通量是一种经济实用、行之有效的方法。前人对珠江口盆地荔湾凹陷对应物源区的研究相对薄弱。本文通过对区内岩心测试数据进行化学蚀变指数分析,恢复晚渐新世—早中新世物源区的风化历史,并进行沉积物通量的估算,在此基础上探讨物源特征对研究区内沉积充填的控制作用。研究表明,晚渐新世研究区对应物源区经历了强烈风化阶段,该阶段产生的丰富的沉积物供给是研究区西北部快速进积、规模壮观的陆架边缘三角洲及斜坡重力流沉积体系发育的重要控制因素之一;早中新世,西北物源区风化减弱,沉积供给减少,但研究区东部沉积物供应较西部要充分得多,表明早中新世,研究区南部除了来自西北部的主要物源外,局部物源对该时期的沉积具有重要影响;推测东部物源(东部古隆起、兴宁古隆起)的突然复活是促进研究区东部早中新世沟槽形成发育的重要原因之一。在超深水区进行沉积物源区的研究中,这种半定量的方法对盆内局部物源的确定具有重要的指示意义。 相似文献
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准噶尔盆地南缘中-新生界地层主要分布于准噶尔盆地南缘与天山耦合部位。通过X射线荧光光谱(XRF)和电感耦合等离子体质谱(ICP-MS)对准噶尔盆地南缘中-新生界沉积岩样品进行了测试。本文根据样品中常量元素、微量元素及稀土元素(REE)特征以及特征元素比值等地球化学参数,探讨了准噶尔盆地南缘中-新生界物源区构造背景、物源性质及风化程度。通过常量、微量元素构造判别图(含量及比值)判断得出中-新生界沉积岩源岩以长英质岩石为主,构造背景为活动性大陆边缘。准噶尔盆地南缘中-新生界具有较低化学蚀变指数(CIA)和较高成分成熟度变化指数(ICV)的特征,分布范围分别为52~89、0.37~1.82,反映准南中-新生界物源区古风化程度低、沉积物成分成熟度低,表明物源区构造活动强烈,属于快速剥蚀和搬运的构造环境。 相似文献
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南海东部次海盆的沉积记录蕴含着区域内中中新世以来沉积物的风化过程和演化历史信息.本文分析了国际大洋发现计划IODP 349航次南海东部次海盆U1431站位沉积物的主、微量元素和Sr-Nd同位素特征.研究显示,样品中化学风化蚀变指数为49~74,表明源区的化学风化强度为低到中等强度.沉积物在风化过程中以斜长石风化为主.含有火山碎屑的岩性单元Ⅵ和Ⅶ及55X-2层位受到含Fe、Mg矿物组分的物质来源输入影响,其余沉积物主要来自长英质源区.Sr和Nd同位素特征显示不同风化程度的沉积物源区具有明显差异.通过与周围潜在源区进行对比,推断12.8 Ma至今,U1431站位的物源主要来自珠江流域,印支半岛、吕宋和巴拉望提供了少量物质.其中12.5~7.4 Ma,沉积物源区受到周围岩浆活动形成的基性物质输入的影响,但仍以珠江源区为主.6.5 Ma以后,台湾岛隆升剥蚀的陆源物质进入中央海盆.因此,台湾岛成为源区之一. 相似文献
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川西龙泉山白垩系泥质岩的元素地球化学特征 总被引:1,自引:0,他引:1
龙泉山作为四川前陆盆地的前陆隆起带,记录了龙门山造山带地质构造演化的重要信息。本文对川西平原东侧龙泉
山白垩系泥质岩样品的进行了常量元素、微量元素和稀土元素测试,根据泥质岩的地球化学特征讨论了物源区的性质、构
造背景及风化等特征,为探讨龙门山与四川盆地的盆山耦合过程提供了地球化学方面的资料。研究区泥质岩的K2O/Al2O3,
Al2O3/TiO2,Cr/Zr 和Th/Sc 的比值均表明其物源区以长英质岩石为主;REE 配分模式中,(La/Yb)N 的均值为8.99,δEu的均
值为0.70,表现出轻、重稀土分馏程度较高并呈中等负Eu异常的特征;La-Th-Sc 和Th-Sc-Zr/10 三角图表明物源区经历了
大陆岛弧、活动大陆边缘和被动大陆边缘的地质构造演化过程;指示化学风化程度的CIA指数及成分成熟度的ICV指数的
平均值分别为71 和1.43,表明物源区经历了中等的风化作用,揭示了白垩纪时期物源区及四川盆地均属炎热的半干旱- 干
旱气候环境。 相似文献
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Major element geochemistry of purple soils/rocks in the red Sichuan Basin, China: implications of their diagenesis and pedogenesis 总被引:1,自引:0,他引:1
Jing Du Youjin Luo Weihua Zhang Chang Xu Chaofu Wei 《Environmental Earth Sciences》2013,69(6):1831-1844
Major element compositions and chemical weathering features of the purple soils and their corresponding rocks in the Red Sichuan Basin, China were studied in this paper to infer the diagenetic features of the purple rocks and the pedogenetic features of the purple soils. The results showed that all of the rock and soil samples, except those from Yibin, have strongly similar major element compositions and the distribution patterns of their major element compositions are similar to those of the upper continental crust. Chemical index of alteration, chemical index of weathering and Na2O/K2O indicate that the purple soils and rocks have similar chemical weathering intensities, whereas the Al2O3–CaO* + Na2O–K2O (A–CN–K) relationship, suggests that chemical weathering was strong during diagenesis of the purple rocks, but weak during pedogenesis of the purple soils. Variations in major element compositions of the purplish rock samples, except that from Yibin, do not primarily reflect differences in compositions of the sediment source, sediment recycling and potassium metasomatism, and therefore the effects of chemical weathering on the major element compositions were mainly dependent on climate condition and the residence time of material exposed to chemical weathering. Chemical weathering of the purple rocks reached only moderate degrees under the general influence of warm and humid climate during Jurassic and Cretaceous. Warmer and more humid climate conditions partly resulted in stronger chemical weathering of rocks in the southern region of the basin than in the central and western region, whereas shorter residence time of material in upslope position partly resulted in weaker chemical weathering of rocks in the eastern region than in the central and western region. The same climate and stable tectonic setting led to comparable chemical weathering intensities of rocks in the Ziliujing and Jiaguan Formations. Gradually colder and dryer climate from Early Jurassic to Middle Jurassic then to Late Jurassic and shorter residence time in tectonically active setting of Middle Jurassic and late Late Jurassic resulted in the following order of chemical weathering intensity of the purple Jurassic rocks: Ziliujing Formation ? Shaximiao Formation ≈ Suining Formation > Penglaizhen Formation. 相似文献
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白云岩风化剖面元素地球化学特征:对黔中九架炉组“三稀金属”富集机制的启示 总被引:2,自引:1,他引:1
黔中早石炭世九架炉组铝土矿含矿岩系富集Ti、Li、Sc、V、Ga、Nb、Ta、Zr、Hf、Th和稀土(REEs)等"三稀金属",具有成为独立矿床或伴生资源的潜力。这些元素大部分与九架炉组共有同一母岩,且富集程度受母岩的成分和风化作用控制。本研究选取九架炉组母岩乌当娄山关群白云岩和纳雍牛蹄塘组泥质白云岩的现代风化剖面为研究对象,研究元素在风化作用过程中的迁移特征及分布规律,进而为九架炉组微量元素的富集机制提供启示。研究获得以下认识:1)依据剖面结构、ZrHf、Nb-Ta、Y-Ho二元图特征及REE配分曲线和Eu/Eu*值的相似性表明研究区土层主要来源于基底或母岩的风化; 2)白云岩风化成土过程中Si、Fe、Cr、As、Sb、Ti、Nb、Ta、Zr、Hf、Th、REEs等元素化学性质相对稳定,富集程度较高,而Ca、Mg、Na、K、Sr、P、Mo、Cd等元素化学性质活泼,容易淋失亏损; 3)纳雍剖面REEs~(3+)和Ca~(2+)半径差与REEs富集系数相关性良好,表明碳酸盐岩风化过程中,含钙矿物磷灰石是稀土元素分配的重要控制因素; 4)九架炉组的母岩也是Ti、Li、Sc、V、Ga、Nb、Ta、Zr、Hf、Th等微量元素的主要物质来源,母岩风化过程中,这些微量元素首先在副矿物、黏土矿物、铝矿物及磷灰石等矿物相中初步富集,之后随风化碎屑物一起沉积形成微量元素超常富集地层; 5)纳雍剖面地表和地下水提供了部分P、Be、Zn、Sb、Pb、Y及REEs来源,指示水体迁入作用也是九架炉组REEs富集的重要原因。研究表明黔中九架炉组微量元素的来源较复杂,风化-沉积过程中,化学性质稳定的元素残留在风化碎屑物中并被搬运-沉积在负地形中,而化学性质活泼的元素首先被带入水体,在沉积-成岩过程中特定条件下发生二次富集作用(例如次生矿物的形成及吸附)形成微量元素富集的地层。 相似文献
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漠河盆地的中侏罗统.砂岩具有高SiO2、低Fe2O3、FeO 、MgO 和轻稀土元素富集, 重稀土相对亏损,显示弱的负Eu异常的特征.综合分析砂岩的常量元素、微量元素和稀土元素的地球化学特征,经构造判别图解,笔者认为漠河盆地中侏罗统沉积时物源区具有大陆岛弧和活动大陆边缘的构造环境.盆地南侧的额尔古纳地块北缘古生代杂岩可能是盆地的主要物源. 相似文献
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CAI Yuqi HAN Meizhi ZHANG Chuang YI Chao LI Xiaocui ZHANG Yan WANG Gui LI Huaming 《《地质学报》英文版》2021,95(6):2075-2086
The Bayinqinggeli deposit in the northern Ordos Basin, northwestern of China, is a recently discovered sandstone-type uranium deposit. The uranium (U) orebodies are generally hosted in the lower member of the Jurassic Zhiluo Formation (Fm.), and are primarily tabular or irregular in shape. In the study area, 23 sandstone samples were collected from the Zhiluo Fm. and analyzed for major, trace, and rare earth elements (REEs). The geochemical characteristics of these sandstones are used to evaluate the factors controlling U mineralization. The source rocks of the Zhiluo Fm. sandstones are mainly volcanic and felsic magmatic rocks formed in continental arc and active continental-marginal arc environments, and they provided the material required for the mineralization. The index of compositional variability ranges from 1.02 to 3.29 (average1.38), indicating that the Zhiluo Fm. sandstones are immature and composed of first-cycle sediments. The corrected chemical index of alteration averages 56, suggesting that the source rocks underwent weak chemical weathering. The ore host rocks are loose, providing favorable conditions for epigenetic oxidation and U precipitation and enrichment. Ferrous iron in minerals such as chlorite, biotite, ilmenite, and pyrite might have played a role either in adsorbing or reducing the uranium. 相似文献
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柴达木盆地北缘中侏罗世晚期沉积的大煤沟组七段页岩(J2d7)记录了该地质历史时期的物源、风化作用及对应的气候和构造特征信息。对钻井岩芯样品进行元素地球化学分析,结果显示,较高的Al2O3/TiO2,La/Sc,Th/Co,较低的TiO2/Zr,以及TiO2-Zr、La/Sc-Th/Co、La/Th-Hf、La-Th-Sc组成表明大煤沟组七段页岩物源主要为长英质花岗闪长岩。A-CN-K组成特征指示钾交代作用对页岩的影响有限,整体较高化学蚀变指数(CIA)、化学风化指数(CIW)、斜长石蚀变指数(PIA)表明物源区经历了中等-强烈的化学风化作用,且自下而上,风化作用逐渐减弱,结合逐步降低的古气候指数C值及增高的Sr/Cu值,可得出在中侏罗世晚期柴北缘地区的古气候条件由温暖潮湿向干旱炎热明显转变,为该时期我国西北地区"干热化"事件在柴北缘的具体表现,同期构造沉降幅度大于因气候变干导致的湖平面下降速率,为有机质的富集提供了有利条件。 相似文献
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S. M. Moosavirad M. R. Janardhana M. S. Sethumadhav K. N. Prakash Narasimha 《Journal of the Geological Society of India》2012,79(5):483-496
Lower Jurassic sandstones of Shemshak Formation of Kerman basin, central Iran were analyzed for major and select trace elements to infer their provenance, palaeoweathering of source rocks and tectonic setting. Average modal framework components (Qt: F: L= 67.25: 2.41: 30.48) and chemical composition of the sandstones classify them as litharenites. The sandstones are quartz-rich (~ 67% quartz; 75.34 wt.% SiO2) and derived from a recycled orogen composed of quartzose sedimentary rocks. Average CIA, PIA and CIW values (69%, 76% and 80%, respectively) indicate moderate to intense chemical weathering of the source material. The inferred index of weathering/alteration is the sum total of intensities of weathering witnessed by the lithocomponents during atleast two cycles of sedimentation involving (1) chemical weathering of the source rocks («ultimate» granodiorite source and «proximal» quartzose sedimentary source), (2) chemical weathering during fluvial transport of the detritus, (3) chemical weathering of the detritus in depocenters, and (4) chemical weathering during diagenesis. Sandstones exhibit moderate maturity and were deposited under humid climatic conditions. Plots of the chemical analyses data on tectonic setting discrimination diagrams indicate active continental margin setting, which is in agreement with the tectonic evolutionary history of the Central Iran during Jurassic period. 相似文献
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Giovanni Mongelli Michele Paternoster Giovanna Rizzo Rosa Sinisi 《International Journal of Earth Sciences》2014,103(4):1125-1140
There is an increasing interest in the distribution of rare earth elements (REEs) within soils, primarily as these elements can be used to identify pedogenetic processes and because soils may be future sources for REE extraction, despite much attention should be paid to the protection and preservation of present soils. Here, we evaluate the processes that control the distribution of REEs in subsoil horizons developed over differing lithologies in an area of low anthropogenic contamination, allowing estimates of the importance of source rocks and weathering. Specifically, this study presents new data on the distribution of REEs and other trace elements, including transition and high-field-strength elements, in subsoils developed on both Quaternary silica-undersaturated volcanic rocks and Pliocene siliciclastic sedimentary rocks within the Mt. Vulture area of the southern Apennines in Italy. The subsoils in the Mt. Vulture area formed during moderate weathering (as classified using the chemical index of alteration) and contain an assemblage of secondary minerals that is dominated by trioctahedral illite with minor vermiculite. The REEs, high-field-strength elements, and transition metals have higher abundances in subsoils that developed from volcanic rocks, and pedogenesis caused the Mt. Vulture subsoils to have REE concentrations that are an order of magnitude higher than typical values for the upper continental crust. This result indicates that the distribution of REEs in soils is a valuable tool for mineral exploration. A statistical analysis of inter-elemental relationships indicates that REEs are concentrated in clay-rich fractions that also contain significant amounts of low-solubility elements such as Zr and Th, regardless of the parent rock. This suggests that low-solubility refractory minerals, such as zircon, play a significant role in controlling the distribution of REEs in soils. The values of (La/Yb)N and (Gd/Yb)N fractionation indices are dependent on the intensity of pedogenesis; soils in the study area have values that are higher than typical upper continental crust ratios, suggesting that soils, especially those that formed during interaction with near neutral to acidic organic-rich surface waters, may represent an important source of both light REEs and medium REEs (MREEs). In comparison, MREE/heavy REE fractionation in soils that form during moderate weathering may be affected by variations in parent rock lithologies, primarily as MREE-hosting minerals, such as pyroxenes, may control (La/Sm)N index values. Eu anomalies are thought to be the most effective provenance index for sediments, although the anomalies within the soils studied here are not related to the alteration of primary minerals, including feldspars, to clay phases. In some cases, Eu/Eu* values may have a weak correlation with elements hosted by heavy minerals, such as Zr; this indicates that the influence of mechanical sorting of clastic particles during sedimentary transport on the Eu/Eu* values of siliciclastic sediments needs to be considered carefully. 相似文献
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《Chemie der Erde / Geochemistry》2015,75(3):403-417
In this study, the mobilization, redistribution, and fractionation of trace and rare earth elements (REE) during chemical weathering in mid-ridge (A), near mountaintop (B), and valley (C) profiles (weak, weak to moderate, and moderate to intense chemical weathering stage, respectively), are characterized. Among the trace elements, U and V were depleted in the regolith in all three profiles, Sr, Nb, Ta, Zr, and Hf displayed slight gains or losses, and Th, Rb, Cs, and Sc remained immobile. Mn, Ba, Zn, Cu, and Cr were enriched at the regolith in profiles A and B, but depleted in profile C. Mn, Pb, and Co were also depleted in the saprock and fractured shale zones in profiles A and B and enriched in profile C. REEs were enriched in the regolith and depleted at the saprock zone in profiles A and B and depleted along profile C. Mobility of trace and REEs increased with increasing weathering intensity. Normalized REE patterns based on the parent shale revealed light REE (LREE) enrichment, middle REE (MREE), and heavy REE (HREE) depletion patterns. LREEs were less mobile compared with MREEs and HREEs, and this differentiation increased with increasing weathering degree. Positive Ce anomalies were higher in profile C than in profiles A and B. The Ce fractionated from other REE showed that Ce changed from trivalent to tetravalent (as CeO2) under oxidizing conditions. Minimal REE fractionation was observed in the saprock zone in profiles A and B. In contrast, more intense weathering in profile C resulted in preferential retention of LREE (especially Ce), leading to considerable LREE/MREE and LREE/HREE fractionation. (La/Yb)N and (La/Sm)N ratios displayed maximum values in the saprock zone within low pH values. Findings demonstrate that acidic solutions can mobilize REEs and result in leaching of REEs out of the highly acidic portions of the saprock material and transport downward into fractured shale. The overall behavior of elements in the three profiles suggests that solution pH, as well as the presence of primary and secondary minerals, play important roles in the mobilization and redistribution of trace elements and REEs during black shale chemical weathering. 相似文献
19.
ABSTRACT The siliciclastic rocks in the Xishanyao (XSY) and Toutunhe (TTH) formations recorded the Middle Jurassic palaeogeographic evolution processes of the Bogda Mountains. To explore their provenance, the geochronological, geochemical, and petrological characteristics of the Middle Jurassic sandstones from the west Bogda area are analyzed in this study. The detrital grains of sandstones are generally poorly to moderately sorted and subangular to subrounded. Low to moderate CIA* (chemical index of alteration), PIA (plagioclase index of alteration), CIW (chemical index of weathering) and relatively high ICV (index of compositional variability) values indicate the overall low to moderate weathering intensity, low sediment recycling, and abundant first-cycle siliciclastics supply. The abundant acid volcanic lithic fragments and element contents/ratios of the sandstones indicate source areas dominated by felsic rocks. The detrital zircon U-Pb age spectrum of the lower XSY Formation is dominated by a single Carboniferous age group. Multiple Palaeozoic zircon U-Pb age groups exist in the middle-upper XSY Formation. The TTH Formation has a typical age of late Middle Jurassic. Combined with the sedimentological characteristics, it reveals that (1) the Eastern Bogda Mountains (EBM) were the only provenance for the lower XSY Formation; (2) both the Yemaquan arc and the EBM provided detritus for the middle XSY Formation; (3) the Yemaquan arc became a minor provenance for the TTH and upper XSY formations. Middle Jurassic palaeogeographic evolution in the EBM is inferred as follows: (1) during the deposition of the lower XSY Formation, the EBM suffered a rapid uplift and became an obvious positive relief; (2) the palaeorelief became high in the Yemaquan arc area and low in the EBM during the deposition of the middle XSY Formation; (3) the Yemaquan arc was considerably eroded, which caused the palaeotopography to decline sharply during the deposition of the upper XSY Formation; (4) the EBM uplifted again during the TTH Formation period, accompanied by volcanic activities at ~165Ma. 相似文献